The Effect of Emitters on Quantum State Transfer in Coupled Cavity Arrays

Trevor A Clarke; Jack Mucciaccio; Amelia Broman; Eli N Baum; Alexander Yue; Yuxi Zhang; Jesse Patton; Victoria A Norman; Marina Radulaski; Natanael C Costa; Richard T Scalettar

The Effect of Emitters on Quantum State Transfer in Coupled Cavity Arrays

ORAL

Abstract

I will report an investigation into perfect quantum state transfer (QST) across coupled-cavity emitter arrays to provide a comprehensive understanding of the effects of system geometry and physical attributes on quantum state transfer as a function of time. By performing simulations with disordered emitter geometries and couplings to the cavity array, our group was able to determine the ways in which QST is degraded. This is unique as much of the existing literature on perfect QST and the effects of disorder focuses on cavity-only systems. We will show fidelity plots which illustrate the probability of transit from one side of the lattice to another for specific geometries, and also 'phase diagrams' which give the optimal QST fidelity as a function of the placement of a single emitter and its coupling to the cavity.

March 17, 2022, 1:06 PM – March 17, 2022, 1:18 PM

Presenters

Trevor A Clarke

University of California, Davis

Authors

Trevor A Clarke

University of California, Davis
Jack Mucciaccio

Coe College
Amelia Broman

Carleton College
Eli N Baum

University of California, Davis, Department of Physics and Astronomy, University of California, Davis
Alexander Yue

University of California, Davis, University of California - Davis
Yuxi Zhang

University of California, Davis
Jesse Patton

University of California, Davis, University of California - Davis
Victoria A Norman

University of California, Davis
Marina Radulaski

University of California, Davis
Natanael C Costa

Universidade Federal do Rio de Janeiro
Richard T Scalettar

University of California, Davis